Vacuum cleaner pneumatically connected to a power tool, method for controlling operation parameters of such a vacuum cleaner and power tool for pneumatic connection to such a vacuum cleaner

1 . A vacuum cleaner adapted for pneumatic connection to a power tool generating dust during its operation, in order to draw at least part of the dust away from the tool into the vacuum cleaner, the vacuum cleaner operating under certain operation parameters when it is turned on, wherein the vacuum cleaner comprises a reception mechanism for receiving information regarding characteristics of the tool and/or its current use, a processing and calculation mechanism for processing the received information and for calculating a correction signal for at least one of the vacuum cleaner's operation parameters based on the received information, and an adjustment mechanism for adjusting the at least one operation parameter based on the calculated correction signal. 2 . The vacuum cleaner as set forth in claim 1 , wherein the vacuum cleaner includes a motor, the motor's speed being one of the operation parameters, the motor adapted to run at a certain speed when turned on and drawing a corresponding volume per time unit of dust laden air, wherein the processing and calculation mechanism is adapted to calculate a correction signal for the speed of the vacuum cleaner's motor, and wherein the adjustment mechanism is adapted to adjust the motor speed based on the calculated correction signal. 3 . The vacuum cleaner as set forth in claim 1 , wherein the vacuum cleaner further includes at least one filter element, which is automatically cleaned from time to time during a filter cleaning process by inverting the air flow through the at least one filter element, a frequency of the filter cleaning process being one of the operation parameters, wherein the processing and calculation mechanism is adapted to calculate a correction signal for the frequency of the filter cleaning process, and wherein the adjustment mechanism is adapted to adjust the frequency of the filter cleaning process based on the calculated correction signal. 4 . The vacuum cleaner as set forth in claim 1 , wherein the reception mechanism is adapted to receive the information regarding characteristics of the tool and/or its current use from the tool. 5 . The vacuum cleaner as set forth in claim 1 , wherein the reception mechanism is adapted to receive the information regarding characteristics of the tool and/or its current use via a wireless data link. 6 . The vacuum cleaner as set forth in claim 4 , wherein the vacuum cleaner has an electric connection mechanism for connecting the tool to the vacuum cleaner by an electric cable, wherein the reception mechanism is adapted to receive the information regarding characteristics of the tool and/or its current use via the electric cable. 7 . The vacuum cleaner as set forth in claim 6 , wherein the electric connection mechanism is adapted for connecting the tool to the vacuum cleaner by an electric power line providing the tool with the electric power necessary for its operation, wherein the reception mechanism is adapted to receive the information regarding characteristics of the tool and/or its current use via the power line by a power line communication between the tool and the vacuum cleaner. 8 . The vacuum cleaner as set forth in claim 1 , wherein the processing and calculation mechanism includes a microprocessor, which is adapted for running a computer program programmed in order to process the received information and to calculate the correction signal based on the received information regarding characteristics of the tool and/or its current use. 9 . The vacuum cleaner as set forth in claim 1 , wherein the information regarding characteristics of the tool and/or its current use comprises at least one of a group including a unique identification of the manufacturer of the tool and/or the type of tool, a maximum speed a tool's motor can reach, a current speed of the tool's motor, a maximum amount of dust per time unit the tool can generate, an amount of dust per time unit currently generated by the tool, type or age of a currently mounted working element of the tool, characteristics regarding a workpiece or a workpiece's working surface currently worked by the tool, or a minimum value for a volume of aspired dust laden air per time unit necessary for drawing a predefined amount of the dust generated by the tool. 10 . The vacuum cleaner as set forth in claim 1 , wherein the vacuum cleaner includes a storage mechanism, in which a look-up table is stored before operation of the vacuum cleaner, the look-up table comprising additional information for a plurality of power tools, the processing and calculation mechanism being adapted to retrieve the stored additional information by the information received by the reception mechanism. 11 . The vacuum cleaner as set forth in claim 1 , wherein the vacuum cleaner includes a storage mechanism, in which the information received by the reception mechanism and/or the at least one value of the correction signal calculated by the processing and calculation mechanism are stored for future operation of the vacuum cleaner. 12 . The vacuum cleaner as set forth in claim 1 , wherein the processing and calculation mechanism is adapted to calculate the correction signal also based on information regarding characteristics of the vacuum cleaner and/or its current use. 13 . The vacuum cleaner as set forth in claim 12 , wherein the information regarding characteristics of the vacuum cleaner and/or its current use includes at least one of a group consisting of: filling level of a dust container of the vacuum cleaner, degree of loading of at least one filter element of the vacuum cleaner, absolute pressure values before and/or after at least one filter element of the vacuum cleaner, a difference of the pressure values before and after at least one filter element of the vacuum cleaner, a time period of use since emptying a dust container of the vacuum cleaner the last time, a time period of use since running through a filter cleaning process the last time, a motor temperature of the vacuum cleaner, or environmental parameters like dust concentration in the air surrounding the vacuum cleaner, temperature or humidity outside the vacuum cleaner. 14 . A method for controlling operation parameters under which a vacuum cleaner is operated, wherein if it is turned on, the vacuum cleaner being adapted for pneumatic connection to a power tool generating dust during its operation, in order to draw at least part of the dust away from the tool into the vacuum cleaner, wherein said method includes the steps of receiving information regarding characteristics of the tool and/or its current use at the vacuum cleaner, processing the received information and calculating a correction signal for at least one of the vacuum cleaner's operation parameters at the vacuum cleaner based on the received information, and adjusting the at least one operation parameter based on the calculated correction signal. 15 . An electric or pneumatic power tool that generates dust during its operation, comprising a dust extraction device adapted to be pneumatically connected to a vacuum cleaner in order to draw at least part of the dust away from the tool into the vacuum cleaner, wherein the tool has transmission mechanism for transmitting information regarding characteristics of the tool and/or its current use to the vacuum cleaner. 16 . The power tool as set forth in claim 15 , wherein the tool is electrically connected to the vacuum cleaner by an electric cable, in particular a power line providing the tool with the electric power necessary for its operation, wherein the transmission mec